CN222437991U - Hidden touch components and range hood - Google Patents

Abstract

The utility model discloses a hidden touch assembly and a range hood. The hidden touch control assembly comprises a shell and a touch control assembly, wherein the touch control assembly comprises a touch display screen, an opening is formed in one side of the shell, the touch control assembly is connected with the shell in a sliding mode along the direction parallel to the direction of the opening, the touch control assembly is provided with a hidden state stored in the shell and a use state exposed out of the shell, a pressing self-locking buckle structure is arranged in the shell, a locking head is arranged on the touch control assembly, when the touch control assembly slides to the hidden state, the pressing self-locking buckle structure is in locking fit with the locking head to limit the touch control assembly to slide outwards, and when the pressing self-locking buckle structure is in locking fit with the locking head and the touch control assembly is pressed by a user, the pressing self-locking buckle structure is separated from the locking head. The utility model has simpler structure and is convenient for users to use.

Description

Concealed touch control assembly and range hood

Technical Field

The utility model relates to the technical field of touch display of electrical products, in particular to a hidden touch assembly and a range hood.

Background

Along with the improvement of the requirements of people on electrical products, more and more electrical products are provided with touch display screens which are convenient to operate, but under some special use occasions, if the touch display screens are directly exposed outside, the display effect or touch response of the touch display screens are easily affected, and therefore, the prior art designs a hidden touch display assembly. For example, chinese patent publication No. CN218864252U discloses a range hood with a hidden control screen, but in this patent document, the movement of the control screen is based on the driving of a corresponding movement mechanism, and the movement mechanism is complex, so there is a need in the prior art for a touch display assembly that can be manually and conveniently operated by a user.

Disclosure of utility model

The utility model provides a hidden touch component and a range hood, which are simpler in structure and convenient for users to use.

In order to solve the problems, the utility model adopts the following technical scheme:

According to the first aspect of the utility model, the embodiment of the utility model provides a hidden touch control assembly, which comprises a shell and a touch control assembly, wherein the touch control assembly comprises a touch display screen, an opening is formed in one side of the shell, the touch control assembly is in sliding connection with the shell along the direction parallel to the direction of the opening, the touch control assembly is provided with a hidden state accommodated in the shell and a use state exposed out of the shell, a pressing self-locking buckle structure is arranged in the shell, a locking head is arranged on the touch control assembly, when the touch control assembly slides to the hidden state, the pressing self-locking buckle structure is in locking fit with the locking head so as to limit the touch control assembly to slide outwards, and when the pressing self-locking buckle structure is in the locking fit state with the locking head and the touch control assembly is pressed by a user, the pressing self-locking buckle structure is separated from the locking head.

In some embodiments, a damping mechanism is disposed within the housing for damping sliding movement of the touch assembly relative to the housing.

In some embodiments, the damping mechanism includes a rack gear fixed to one of the housing and the touch assembly and extending in a direction parallel to the orientation of the opening, a gear rotatably coupled to the other of the housing and the touch assembly and engaged with the rack gear, and a damper coupled to the gear.

In some embodiments, a guiding mechanism is disposed in the housing, and the guiding mechanism is used for guiding the touch control component to slide along a direction parallel to the direction of the opening relative to the housing.

In some embodiments, the guide mechanism includes a rail secured to one of the housing and the touch assembly and extending in a direction parallel to the orientation of the opening, and a slider secured to the other of the housing and the touch assembly and slidably engaged with the rail.

In some embodiments, the guide mechanism includes a guide groove provided in one of the housing and the touch assembly and extending in a direction parallel to an orientation of the opening, and a pulley rotatably coupled to the other of the housing and the touch assembly and slidable in the guide groove.

In some embodiments, the housing includes a stiffener on both sides thereof, the guide grooves are provided on the stiffener, and the pulleys are provided in two groups and are respectively located on both sides of the touch assembly.

In some embodiments, the push self-locking clasp is a push self-locking female clasp and the lock fitting is a push self-locking male clasp.

According to a second aspect of the present utility model, an embodiment of the present utility model provides a range hood, including a main unit, a fume collecting hood, and a hidden touch assembly according to any one of the first aspect, where the fume collecting hood is disposed below the main unit and connected to the main unit, the housing is fixed in the main unit, and a notch for exposing an opening of the housing is disposed on a surface of the main unit.

In some embodiments, the notch is disposed on a bottom surface of the main unit, and the opening is oriented parallel to the vertical direction.

The touch control device has the advantages that the touch control device is not provided with a driving mechanism, a user can manually move the touch control assembly to change the state of the touch control assembly, when the touch control assembly slides to the hidden state, the self-locking buckle structure is pressed to be in locking fit with the lock fitting head so as to limit the touch control assembly to slide outwards, the touch control assembly can keep the hidden state contained in the shell, when the self-locking buckle structure is pressed to be in the locking fit state with the lock fitting head, the user can press the touch control assembly so as to drive the self-locking buckle structure to be separated from the lock fitting head, the self-locking buckle structure is pressed to not limit the touch control assembly to slide outwards, and the touch control assembly can slide to the use state exposed out of the shell, so that the touch control assembly is normally used by the user.

Drawings

FIG. 1 is a schematic diagram of a hidden touch device according to an embodiment of the utility model;

FIG. 2 is a schematic view of a hidden touch module according to an embodiment of the utility model under another view;

FIG. 3 is a schematic view of a hidden touch module according to an embodiment of the present utility model with a portion of the housing removed;

FIG. 4 is a schematic diagram of the hidden touch device shown in FIG. 3 in another view;

Fig. 5 is a schematic structural view of a range hood according to an embodiment of the present utility model;

Fig. 6 is a schematic view illustrating a structure of a range hood according to an embodiment of the present utility model in another state.

Wherein, the reference numerals are as follows:

The shell 100, the opening 101, the self-locking buckle structure 110 is pressed, and the locking head 120 is locked;

a touch control assembly 200;

damping mechanism 300, rack 310, gear 320, damper 330;

guide mechanism 400, guide rail 410, slider 420, guide groove 430, pulley 440, reinforcing rib 450;

host 510, fume collection hood 520.

Detailed Description

The following description is provided with reference to the accompanying drawings to assist in a comprehensive understanding of various embodiments of the utility model as defined in the claims and their equivalents. The description includes various specific details to aid in understanding, but these details should be regarded as merely exemplary. Accordingly, those skilled in the art will recognize that various changes and modifications of the various embodiments described herein can be made without departing from the scope and spirit of the utility model.

In the description of the present utility model, references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, only for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

It will be understood that when an element (e.g., a first element) is "connected" to another element (e.g., a second element), the element can be directly connected to the other element or there can be intervening elements (e.g., a third element) between the element and the other element.

The embodiment of the utility model provides a hidden touch assembly, as shown in fig. 1-4, including a housing 100 and a touch assembly 200, where the housing 100 may have a box structure, which may be integrally formed or formed by combining a plurality of connection plates, a receiving cavity capable of receiving the touch assembly 200 is formed inside the housing 100, the receiving cavity forms an opening 101 at one side of the housing 100, and the touch assembly 200 may slide into or slide out of the receiving cavity through the opening 101. To facilitate viewing of the structure inside the housing 100, fig. 3 and 4 remove portions of the structure of the housing 100. The touch control assembly 200 comprises a touch display screen, the touch display screen provides a man-machine interaction interface and can be used for a user to touch to control corresponding electrical products, and other components such as keys, indicator lamps and the like can be integrated on the touch control assembly 200 according to actual needs.

The touch assembly 200 is slidably connected to the housing 100 along a direction parallel to the direction of the opening 101, so that the touch assembly 200 can slide out of or into the opening 101. The touch control component 200 can slide to a hidden state and a use state relative to the housing 100, when the touch control component 200 is in the hidden state, the touch control component 200 is contained in the housing 100 and is hidden to protect the touch control component 200, and when the touch control component 200 is in the use state, the touch control component 200 is exposed to the housing 100, specifically, the touch control component 200 can be entirely exposed to the housing 100 or can be mostly exposed to the housing 100, so that a user can operate the touch control component 200 to control corresponding electric products.

The shell 100 is internally provided with a pressing self-locking buckle structure 110, the touch control component 200 is provided with a locking head 120, and a user can slide the touch control component 200 to change the state of the touch control component 200. When the touch assembly 200 slides to a hidden state, the pressing self-locking buckle structure 110 can be in locking fit with the lock matching head 120 to limit the touch assembly 200 to slide outwards, the touch assembly 200 can be kept in the hidden state contained in the shell 100, when the pressing self-locking buckle structure 110 and the lock matching head 120 are in locking fit, and the touch assembly 200 is pressed by a user, the pressing self-locking buckle structure 110 can be unlocked by itself so as to be separated from the lock matching head 120, the pressing self-locking buckle structure 110 does not limit the touch assembly 200 to slide outwards, the touch assembly 200 can slide to a use state exposed out of the shell 100 for normal use of the touch assembly 200 by the user, a driving device is not used in the embodiment, the touch assembly 200 can be kept in the shell 100 by the cooperation of the pressing self-locking buckle structure 110 and the lock matching head 120, and the structure is simpler and convenient for the user to use.

In some embodiments, the housing 100 may be placed vertically, the opening 101 may be located at the bottom of the housing 100, when the user presses the touch assembly 200, the self-locking buckle structure 110 is pressed to unlock the lock head 120, and the touch assembly 200 can slide downward under the action of gravity, so as to slide out of the housing 100 automatically, thereby omitting the process of the user pulling the touch assembly 200 out of the housing 100, and further facilitating the use of the user.

In some embodiments, the damping mechanism 300 is disposed in the housing 100, where the damping mechanism 300 is used to apply damping to sliding of the touch assembly 200 relative to the housing 100, so that the sliding speed of the touch assembly 200 relative to the housing 100 is not too high, damage to the touch assembly 200 or the housing 100 is avoided, especially when the housing 100 is vertically placed, if the touch assembly 200 is easy to fall down quickly under the action of gravity without the damping mechanism 300, the damping mechanism 300 may protect the touch assembly 200 and/or the housing 100.

Further, the damping mechanism 300 includes a rack 310, a gear 320, and a damper 330, wherein the rack 310 is fixed to one of the housing 100 and the touch assembly 200, i.e., the rack 310 may be fixed to the housing 100 or may be fixed to the touch assembly 200, and the rack 310 extends in a direction parallel to the direction of the opening 101 and is parallel to the sliding direction of the touch assembly 200. The gear 320 is rotatably connected to the other of the housing 100 and the touch assembly 200, the gear 320 is rotatably connected to the touch assembly 200 when the rack 310 is fixed to the housing 100, the gear 320 is rotatably connected to the housing 100 when the rack 310 is fixed to the touch assembly 200, and simultaneously, the gear 320 is also engaged with the rack 310, and the gear 320 is rotated when the touch assembly 200 slides relative to the housing 100. The damper 330 is connected to the gear 320 to dampen the rotation of the gear 320, and accordingly, the gear 320 cannot rotate rapidly, so that the touch assembly 200 is difficult to slide rapidly relative to the housing 100, thereby protecting the touch assembly 200 and/or the housing 100.

In some embodiments, a guiding mechanism 400 is disposed in the housing 100, and the guiding mechanism 400 is used to guide the touch assembly 200 to slide along a direction parallel to the direction of the opening 101 relative to the housing 100, so as to ensure that the touch assembly 200 can slide smoothly along the direction parallel to the direction of the opening 101.

In some embodiments, the guiding mechanism 400 includes a guide rail 410 and a slider 420, where the guide rail 410 is fixed to one of the housing 100 and the touch assembly 200, i.e., the guide rail 410 may be fixed to the housing or the touch assembly, and the guide rail 410 extends in a direction parallel to the direction of the opening 101. The slider 420 is fixed to the other of the housing 100 and the touch assembly 200, when the guide rail 410 is fixed to the housing 100, the slider 420 is fixed to the touch assembly 200, when the guide rail 410 is fixed to the touch assembly 200, the slider 420 is fixed to the housing 100, and the slider 420 is further in sliding fit with the guide rail 410, so as to guide the touch assembly 200 to slide along a direction parallel to the direction of the opening 101 relative to the housing 100.

In other embodiments, the guiding mechanism 400 includes a guiding groove 430 and a pulley 440, wherein the guiding groove 430 is disposed on one of the housing 100 and the touch assembly 200, i.e., the guiding groove 430 may be disposed on the housing 100 or on the touch assembly 200, and the guiding groove 430 extends along a direction parallel to the direction of the opening 101. The pulley 440 is rotatably connected to the other of the housing 100 and the touch assembly 200, when the guide groove 430 is provided on the housing 100, the pulley 440 is rotatably connected to the touch assembly 200, when the guide groove 430 is provided on the touch assembly 200, the pulley 440 is rotatably connected to the housing 100, when the guide groove 430 is provided on the housing 100, the pulley 440 is rotatably connected to the touch assembly 200, and the pulley 440 is slidable in the guide groove 430 to guide the touch assembly 200 to slide in a direction parallel to the orientation of the opening 101 with respect to the housing 100 through the cooperation of the pulley 440 and the guide groove 430.

Further, the housing 100 includes a reinforcement 450 at both sides thereof, the guide groove 430 is provided on the reinforcement 450, and the pulley 440 is provided in two groups at both sides of the touch assembly 200, respectively. The reinforcement 450 not only provides the guide groove 430 but also may strengthen the structural strength of the housing 100. The guide grooves 430 and the pulleys 440 are provided with two groups, so that the guiding effect on the touch assembly 200 can be enhanced.

In some embodiments, the pressing self-locking buckle structure 110 is a pressing self-locking female buckle, the lock fitting head 120 is a pressing self-locking male buckle, the pressing self-locking female buckle can be in locking fit with the pressing self-locking male buckle, and after the pressing self-locking male buckle is pressed by a user, the pressing self-locking female buckle can be separated from the pressing self-locking male buckle.

The embodiment of the present utility model further provides a range hood, as shown in fig. 5 and 6, including a main unit 510, a smoke collecting hood 520, and a hidden touch component according to any of the above embodiments, and the detailed description of the hidden touch component will be referred to the above embodiments and will not be repeated herein. The fume collecting hood 520 is arranged below the main machine 510 and is connected with the main machine 510, the fume collecting hood 520 is used for collecting fume, a fan, a fume exhaust pipe and other structures are arranged in the main machine 510, and the fan generates suction so as to pump the fume in the fume collecting hood 520 away and exhaust the fume through the fume exhaust pipe. The casing 100 is fixed in the host 510, and a notch for exposing an opening of the casing 100 is provided on the surface of the host 510, so that the touch component 200 can be hidden inside the host 510, and the oil smoke is prevented from adhering to the touch component 200, thereby affecting the use of the touch component 200. The touch control assembly 200 may also be exposed to the host 510 for a user to control the whole range hood.

In some embodiments, the notch is disposed on the bottom surface of the host 510, the housing 100 is disposed in a vertical direction, and the direction of the opening is parallel to the vertical direction, when the user presses the touch assembly 200, the self-locking buckle structure is pressed to unlock the lock fitting, and the touch assembly 200 can slide downward under the action of gravity, so that the user can slide out of the host 510 automatically, thereby further facilitating the use of the user.

The terms and words used in the above description and claims are not limited to literal meanings but are only used by the applicant to enable a clear and consistent understanding of the utility model. Accordingly, it will be apparent to those skilled in the art that the foregoing description of the various embodiments of the utility model has been provided for illustration only and not for the purpose of limiting the utility model as defined by the appended claims and their equivalents.

Claims (10)

1. A hidden touch component is characterized by comprising a shell and a touch component, wherein the touch component comprises a touch display screen, an opening is formed in one side of the shell, the touch component is connected with the shell in a sliding mode along the direction parallel to the direction of the opening, the touch component is provided with a hidden state stored in the shell and a use state exposed out of the shell, a pressing self-locking buckle structure is arranged in the shell, a locking head is arranged on the touch component, when the touch component slides to the hidden state, the pressing self-locking buckle structure is in locking fit with the locking head to limit the touch component to slide out outwards, and when the pressing self-locking buckle structure is in the locking fit state and the touch component is pressed by a user, the pressing self-locking buckle structure is separated from the locking head.

2. The hidden touch assembly of claim 1, wherein the housing is provided with a damping mechanism for damping sliding movement of the touch assembly relative to the housing.

3. The hidden touch assembly of claim 2, wherein the damping mechanism comprises a rack gear fixed to one of the housing and the touch assembly and extending in a direction parallel to the orientation of the opening, a gear rotatably coupled to the other of the housing and the touch assembly and engaged with the rack gear, and a damper coupled to the gear.

4. The hidden touch assembly of claim 1, wherein the housing is provided with a guide mechanism therein for guiding the touch assembly to slide relative to the housing in an opening direction.

5. The hidden touch assembly of claim 4, wherein the guide mechanism comprises a rail secured to one of the housing and the touch assembly and extending in a direction parallel to the orientation of the opening, and a slider secured to the other of the housing and the touch assembly and slidably engaged with the rail.

6. The hidden touch assembly of claim 4, wherein the guide mechanism comprises a guide slot and a pulley, the guide slot is disposed in one of the housing and the touch assembly and extends in a direction parallel to the orientation of the opening, and the pulley is rotatably coupled to the other of the housing and the touch assembly and is slidable in the guide slot.

7. The hidden touch assembly of claim 6, wherein the housing includes a stiffener on each side of the housing, the guide slot is disposed on the stiffener, and the pulleys are disposed in two sets on each side of the touch assembly.

8. The hidden touch assembly of any one of claims 1-7, wherein the push self-locking clasp comprises a push self-locking female clasp and the locking head comprises a push self-locking male clasp.

9. The range hood is characterized by comprising a main machine, a fume collecting hood and the hidden touch control assembly according to any one of claims 1-8, wherein the fume collecting hood is arranged below the main machine and is connected with the main machine, the shell is fixed in the main machine, and a notch for exposing an opening of the shell is arranged on the surface of the main machine.

10. The range hood according to claim 9, wherein the notch is formed in the bottom surface of the main unit, and the opening is oriented parallel to the vertical direction.